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At present, cermet materials are focused on more and more [2-5].
Feng, et al: International Journal of Refractory Metals & Hard Materials Vol. 27 (2009), p. 549 [3] S.Q.
Xiong: International Journal of Refractory Metals & Hard Materials Vol. 27 (2009), p. 26 [4] X.B.
Rong: Materials Characterization Vol. 59 (2008), p. 1690 [5] Z.X.
Rong: Materials Characterization Vol. 59 (2008), p. 1690 [8] X.

Ohtsuki: Evaluation of in vitro bioactivity and biocompatibility of Bioglass®-reinforced polyethylene composite Journal of Materials Science: Materials in Medicine 8(12), (1997), 809-813
Journal of Material Science Letters 6:188, (1987), 188-190. [9] J.
Materials Science and Engineering A 362(1-2), (2003), p. 61-80
Materials Science Forum 308-311, (1999), p. 319-22
Journal of Materials Science 28(10), (1993), p. 2820-26

While the related specifications at home and abroad have given certain requirements about technical indexes of raw materials, the requirements are selected according to the average level of various materials’ properties.
These materials can be used for various grades of municipal roads.
Journal of Tongji University (Naturel Science), 2011, 39(5):699-704 [3] Wang Long, Xie Xiaoguang, Feng Decheng.
Journal of Chang’an University (Natural Science Edition), 2007, 27(5):1-5
Journal of China & Foreign Highway, 2010, 30(2):208-212.

The element contents of the materials are listed in Table 1.
It showed that these three materials had certain corrosion resistance.
[4] Jiamin Yin, Zhansong Wu, Experimental investigation of corrosion associated with gaseous HCl in the superheaters in a biomass boiler, Journal of Tsinghua University(Science and Technology). 11 (2008) 1791-1794
[11] Ke Zhang, Yan Niu, High temperature corrosion of Ni-Cr alloys in chlorination-oxidation atmosphere, JOURNAL OF MATERIALS ENGINEERING. 1(2005)12-15
[12] Yuanshi Li, Yan Niu, Weitao Wu, Chlorination of metallic materials at high temperature, Corrosion Science and Protection Technology. 1(2000)41-44.

Synthesis of morph-genetic materials derived from biological structures by rapid, high temperature conversion represents a novel technology of advanced materials processing.
Woods were selected as raw materials.
C.Wang and J.Tian: Chinese Journal of Materials Research Vol10(4)(1995), p.435 [12] X.
Fan et al.: Chinese Journal of Materials Research Vol. 16 （3）(2002), p.259 [13] T.Hirose, T.Fujino and T.
Xie, D.Zhang and T.X.Fan et al.: Materials Letters Vol.56(2002), p.102 [20] X.Q.Xie, T.X.Fan and B.H.Sun et al.: Materials Science and Engineering.

Study on Properties of Spherical Non-Metallic Explosion Suppression Materials Zhou Youjiea,1, Lu Changbo b,1, Chunhua Xiong c,1, Yang Zhenli d,2, An Gaojun e,1, Wang Xudong f,1 1 Beijing POL Research Institute, Beijing, 102300, China 2 Nanjing University of Science and Technology, Nanjing, 210094, China aemail: zhoujie_76@126.com, bemail:luchgnbo@163.com, cemail:xch@sina.com.cn, demail:258414976@qq.com, eemail: angaojun2013@163.com, femail:wangxudong3637@163.com Keywords: explosion suppression; spherical explosion suppression materials; cook-off.
Explosion suppression materials of experiment filled with: HDPE spherical non-metallic explosion suppression materials.
China Safety Science Journal, 2013, 23(12):66-70
Journal of Loss Prevention in the Process Industries, 2008, 21(5):493-505
Journal of Shenyang Institute of Engineering, 2006, 2(2):176-178

Materials Science and Engineering A, 1991, 137: 35-40
Ordnance Material Science and Engineering,2009,32(5):12-15
Journal of Jiangsu University of Science and Technology(Natural Science Edition), 2006,20(2):85-88
Journal of Wuhan University of Science and Technology, 2011, 34(4): 253-257
Journal of Materials Engineering, (2011)2:69-72

Journal of solar energy, 2006,27(7):725-730
Materials science and engineering, 2005,21(1): 276-279 4] Li hui, FangGuiYin.
Journal of materials science and engineering, 2001,21(6):842-844 [5] JiangDaHua, ZhouYang, carleton ruthling.
Journal of chemical industry, 2004,55(4):678-681
Materials science and engineer, 2001,17(5):137-139

Research on Safety levels in the Chinese Construction Materials Industry based on Gray model forecasting LIU Shuan Xi1,a，HE Wei Da2,b， LIANG Zhi Hao3,c and Cheng Xiao Bing4,d 1,2,3,4School of Management, University of Science and Technology Beijing, P.R.China, 10083 axmu.apple@qq.com, bhewd@ustb.edu.cn, cxmu.apple@gmail.com,dxiaobingcheng@sina.com Keywords: Chinese Construction Materials Industry (CCMI), Twelfth Five-Year Plan, Gray system model, Index system of CCMI safety Abstract.
This paper illustrated the Safety levels in the Chinese Construction Materials Industry (CMMI) during the Twelfth Five-Year Plan.
Introduction CCMI is one of the most important basic raw materials industries in China and plays an important role in the national economy.
Half of the world totals of these materials are produced by or consumed in China(Nesadurai,2005).
Moreover, the quantity and quality of Chinese new wall materials, glass fiber products, glass deep processing products, FRP products, and cement products has also improved significantly.

A Study on Anti-cracking Performance of Lime and Fly-ash Stabilized Coal Gangue Roadbase Materials Huzhu Zhang1,a, Yanhong Zhao 2,b 1 School of Traffic Science and Engineering, Jilin Jianzhu University, Changchun 130118, China 2 Department of Municipal Planning &Design, Anyang Institute of Urban Planning & Design, Anyang, 455000, China a113140014@qq.com, b609831173@qq.com Keywords: Lime and fly-ash stabilized coal gangue; roadbase materials; Anti-cracking performance; Quality ratio of lime to fly-ash Abstract.
Raw materials Raw materials’ property
LIU: Journal of Highway and Transportation Research and Development, Vol. 19(2002), p.1 [2] S.J HE: Journal of Railway Engineering Society, Vol. 61(1999), p.114 [3] H.Z.
CHEN: Shanxi Science &Technology of Communications (1999), p. 29 [5] A.M.
HAO: Journal of Chang’an University(Natural Science Edition), Vol. 22(2002) , p. 13